SAK-TC277TC-64F200S DC

SAK-TC277TC-64F200S DC belongs to the TC27xT family . Its innovative multicore architecture, based on up to three independent 32-bit TriCore CPUs, has been designed to meet the highest safety standards, while simultaneously increasing performance significantly. Equipped with a triple TriCore with 200 MHz, 4MB of Flash memory and a Powerful Generic Timer Module (GTM), the TC27xT series aim for a reduced complexity, best-in-class power consumption and significant cost savings.

Interactive Diagram [ pass over the diagram with the cursor to learn more about the features ]

TriCore™ Development Tools

The AURIX™ Development Studio is a free of charge Integrated Development Environment (IDE) for the TriCore™-based AURIX™ microcontroller family. It is a comprehensive development environment, including Eclipse IDE, C-Compiler, Multi-core Debugger, Infineon low-level driver (iLLD), with no time and code-size limitations that enables editing, compiling, and debugging of application code.

Combined with numerous code example projects, the IDE can be used to evaluate the powerful architecture of the AURIX™ microcontroller family.

The TASKING Pin Mapper for AURIX has been jointly developed with Infineon and contains expert-level knowledge about the dependencies between peripheral modules and device pins. The tool enables both novice and expert users to quickly configure AURIX microcontrollers by making connections between port pins and peripherals. It provides the vital functionality to executed feasibility studies, select the lowest cost hardware device for a given set of requirements, and to create device initialization code in the most cost-effective way.

The TASKING Pin Mapper can save a substantial amount of time for developers and provides assurance that no pin conflicts exist. In addition, the pin mapper generates a data file for PCB design, eliminating the chance for errors when passing data manually.

Benefits of the TASKING Pin Mapper for AURIX:

The Pin Mapper tool reduces developer time and costs, while improving the quality of results.

Configuration takes place via an intuitive Eclipse based GUI with built-in knowledge about AURIX devices and packages. This saves the developer from the tedious task of consulting piles of Device Manuals and maintaining configuration settings in spreadsheets.

Configuration errors/conflicts are detected at entry time and can be either automatically resolved by the Built-in Conflicts Solver or solved manually. Whereas traditionally such errors remain hidden until code has been generated and is tested.

The Pin Mapper reduces miscommunication between individuals and teams by creating all project files from one source. The Pin Mapper creates:

device initialization code in ISO-C format

a spreadsheet (CVS) file for project documentation

a schematic symbol block that can be imported by PCB design tools such as Altium Designer

The Infineon MemTool is a free of charge PC/Windows based software for on-chip flash programming. The software supports a wide range of Infineon Microcontroller devices such as:AURIXTM TC3xx, AURIXTM TC2xx, TriCoreTM, XMC4000, XMC 1000, XC2000, XC800 According to the capabilities of the on-chip flash device, MemTool can be used to erase, program, verify, and protect selectable flash sections or perform these functions on the complete program and data flash areas.MemTool provide ready to use configuration files for the complete range of Infineon Microcontroller evaluation boards and application kits and allows PC/Windows USB -2-target connections via DAS and UART. DAP and JTAG connections to the target system can be performed in line with the Infineon external miniWiggler.

DAS (Device Access Server) as tool connection is a standard for both Infineon on-board wiggler for evaluation boards and for miniWiggler for customer boards. DAS Tool is supporting the XC800, XC166, XE166, XC2000, TriCore ™, AURIX™, XMC4000 family and the XMC1000 family.

The ATI OnTarget was designed to make use of Simulink® models to develop these alternative bypass designs. Simulink is a platform for simulation and Model-Based Design from The MathWorks. No-Hooks OnTarget includes the appropriate Simulink block sets for bypass development and supports the free GNU complier for C-code generation.

ISOLAR-EVE (ETAS Virtual ECU) is a platform for efficient PC-based development, validation, and verification of embedded software. It leverages the AUTOSAR standard to support the execution and the test of application software and AUTOSAR basic software (RTE, OS, COM stack, etc.) on a standard PC. ISOLAR-EVE offers open and versatile interfaces to many tools for test automation, closed-loop simulation, measurement and calibration, rest bus simulation, and debugging on all architectural software levels.

Silver helps to virtualize ECU tasks on Windows PC, either based on C Code or a TriCore hex file. The resulting ECU model runs also in MATLAB/Simulink (MathWorks) and connects to INCA (ETAS) or CANape (Vector) to perform online calibration on PC. Other applications include mathematical optimization of ECU maps. A TriCore hex file runs with about 50 MIPS on a typical PC. When only emulating few ECU functions of interest, the ECU model runs much faster than real time, which is key for coupling with software for numerical optimization.

Synopsys provides electronic system virtualization tools that support precise system architecture definition and enable early software development and testing. Using Synopsys, automotive engineers can execute Virtual Hardware In the Loop (V-HIL) simulations that precisely match the characteristics of the ECU and plant. Synopsys together with Infineon® supports TriCore™ ™ based products for current and future generation MCUs.

No-Hooks OnTarget enables the expanded capability to run customized code in place of selected RAM variables or existing code on the Electronic Control Unit under test, also called the Target. In the No-Hooks tradition, there is no need for access or modification of the ECU source code; all that is needed is the ECU executable and description files.

Automatic generation of parallel C code: Optimize the performance of your embedded applications for the Infineon AURIXTM microcontroller with the developer tool emmtrix Parallel Studio. It significantly simplifies the parallelization process and code optimization through automation and an innovative graphical user interface. Develop your applications in model-based software languages such as MATLAB®, Simulink®, Scilab and Xcos or use your existing C code as starting point for the parallelization in the emmtrix Parallel Studio.

The ASCET product family enables model-based development of application software and automatic code generation from these models. ASCET has been especially developed to meet specific automotive requirements to embedded software with real-time, efficiency and safety restrictions. From the initial component design with block diagrams and state machines to the automatic generation of code for microcontroller target, ASCET components seamlessly integrates with embedded software development processes. ASCET-RP enables rapid prototyping of software functions created in ASCET - both in the laboratory and in the vehicle. This enables early validation of functions and the data supply of calibration labels.

Silexica helps software professionals to master their multicore projects by providing SLX - a unique programming technology that is enabled by state-of-the-art compiler know-how and full heterogeneity awareness. It works as follows:

CoDeSys (short for Controller Development System) is a programming tool for industrial controllers and PLC components based on the international standard IEC 61131-3. A sophisticated functionality and structure as well as an easy handling have turned CoDeSys into the number one programming tool for automation on the European market.

CMX-RTX is a truly preemptive, multi-tasking RTOS offering of the smallest footprints, fastest context switching and lowest interrupt latency times available on the market today. RTOS functionality provided with CMX-RTX includes task, message, queue, system, event, memory, resource, semaphore, timer management and an intuitive Windows GUI that simplifies RTOS configuration. In addition to the CMX-RTX, CMX provides a full suite of middleware including TCP/IP stacks, USB Host and Device software and a variety of Flash file systems. All products include full source code, free technical support and there are no royalties.

OSE Epsilon features a small footprint of approximately 4 KB. The kernel is written completely in assembler, has extremely small interrupt latencies, and is always optimized on the respective processor.

RTA-OS 3.0 provides a production real-time operating system suitable for applications in all areas of automotive ECU design. It implements both the AUTOSAR R3.0 OS and the OSEK/VDX OS V2.2.3 standards, and is fully MISRA C compliant.

EUROS is a real-time operating system that takes into consideration the requirements in the embedded field: - Minimal memory requirements. - Short response times through efficient interrupt management. - Flexible communication mechanisms. - Extensive selection of available drivers and protocol stacks. - Hardware independent application development. - Support of several Infineon CPUs: TriCore ™, C16x and XC16x. In addition to the operating system the cross-development environment EUROSkit and the high level language debugger EUROScope are available.

Erika Enterprise is a free of charge open-source OSEK/VDX RTOS. Erika Enterprise is the first open-source free of charge kernel that has been certified OSEK/VDX compliant. Supports Infineon AURIX and other Tricore derivatives, including Multicore and Memory Protection. Supports Eclipse, Lauterbach Debuggers. Provided with regression tests, MISRA 2004 compliancy, and support for a subset of AUTOSAR OS API. ERIKA AURIX Wiki

E4Coder is a set of tools that can be used to simulate control algorithms and to generate code for embedded microcontrollers running with or without a realtime operating system. Supports Code Generation for Infineon microcontrollers, finite state machines, GUI Prototyping.

µC/OS-II is a portable, ROMable, scalable, preemptive real-time, deterministic, multitasking kernel for microprocessors, microcontrollers and DSPs. µC/OS-II comes with ALL the source code. In fact, the source code is 100% portable ANSI C and is probably the cleanest and most consistent code of any RTOS. A validation suite has been developed for µC/OS-II and provides all the documentation necessary to prove that µC/OS-II is suitable for Safety Critical Systems common to Aviation and Medical products. µC/OS-II can be scaled to only contain the features you need for your application and thus provide a small footprint. Depending on the processor, µC/OS-II can be reduced to as little as 2K bytes of code space and 300 bytes of data space (excluding stacks). Support for TCP/IP, Modbus, CAN and other is available.

The TASKING VX-toolset for TriCore™ consists of a C/C++ compiler for TriCore™, C compiler for PCP, C compiler for HSM, C compiler for XC800 standby controller and C compiler for the MCS/GTM. Also included assembler/linker, seamlessly integrated debugger (simulator, OCDS), integrated into IDE based on Eclipse™.

The VX-toolset also includes the following features:

Code Integrity Check facilities for MISRA C and CERT C compliance, as well as ASIL certifications

Wind River Diab Compiler is an industry-leading, highly optimizing cross compiler that maximizes performance and minimizes memory footprint for deeply embedded software applications. With over 25 years of Diab innovation, and supported by a worldwide organization, the Diab Compiler has been a critical tool in the successful deployment of millions of devices.

aiT WCET Analyzers statically compute tight bounds for the worst-case execution time (WCET) of tasks in real-time systems. They directly analyze binary executables and take the intrinsic cache and pipeline behavior into account.

The TASKING EMBEDDED PROFILER is a non-intrusive Intelligent Performance Optimization tool providing performance information and cross-links to source code or settings causing bottlenecks, enabling software developers to easily identify and implement code changes which improve performance on Infineon TriCore/AURIX hardware - without the need to have all the expert know-how of the hardware itself. More information in this Product Overview.

With the TA Simulator Timing-Architects provides a unique solution for the model-based design, test and analysis of embedded real-time multi- and manycore systems. Developed exclusively for multi- and manycore systems the TA Simulator enables for the first time software architects, engineers and integrators to evaluate their multicore system at all stages – starting with the early design of the software without any costly hardware right to the comparison of implementation alternatives – of the development process.

With the TA Optimizer Timing-Architects provides a unique solution for the model-based design space exploration and automated optimization of embedded real-time multi- and manycore systems. The TA Optimizer detects automatically sufficient software partitioning and allocation policies for software fragments. This allows you an optimal migration from single to multicore systems as well as the improvement of existing multicore systems.

For those ECU's controlled by a Infineon microprocessor equipped with a debug port such as a JTAG / OCDS port ATI developed the A7 Serial Interface Module. The A7 connects to the microprocessor's debug port providing a direct interface to the ECU for calibration. No additional hardware is required. Most importantly, modify ECU memory without impacting the functionality of the ECU.

The ScanExpress suite of boundary-scan software offers a fully integrated development environment that includes boundary-scan and at-speed functional test program generation, test program execution with advanced pin-level diagnostics, interactive boundary-scan debugging, and In-System Programming (ISP) of devices such as Flash memories, Serial EEPROMs, CPLDs, and FPGAs.

The ScanExpress suite of boundary-scan software offers are ideal for testing and in-system-programming (ISP) of Infineon AURIX™ microcontroller-based automotive electronics systems, such as ADAS, telematics, infotainment, and more. ScanExpress enables detection and diagnosis of assembly defects, critical to meeting test goals and assuring quality in systems. Since no additional test points or fixtures are required for boundary-scan testing, a test system with software and a JAG controller—portable or integrated with ATE—can be used to test multiple system designs. Portability also makes Corelis tools ideal for testing systems in the field for quick diagnosis of AURIX™ microcontroller-based systems.

software automates at-speed functional test development for embedded system peripheral components that interface with an IEEE-1149.1compatible CPU. Because it is non-intrusive, ScanExpress JET tests can be used to verify electronic assembly of automotive system modules without modifying the PCB circuitry or the on-board firmware, and may even be combined with traditional Corelis boundary-scan tests steps in a single test sequence. The JET development system can be used across multiple CPU platforms using a built-in peripheral component library. Tests for standard components are automatically created, while the powerful diagnostic script engine provides test engineers with a platform for interacting with system registers as well as loading and executing embedded code. The JET script engine operates over a processor JTAG port to provide users simplified access to ScanExpress JET

The IC5000 is a unified hardware and software platform which, through software updates, adapts into either a basic debug, advanced debug (trace, profiler, analyzer) or test tool for the TriCore ™ product family. An optional I/O module adds the capability to generate, monitor and trace analog as well as digital signals. Further voltage, current and power consumption of the target can be measured.

Circuit Emulator is an In-Circuit Emulator to debug products based on TriCore AURIX. It offers basic and advanced debugging features like standalone downloading, source level debugging, profiling analysis and trace etc.

WriteNow! Multiple In-System Programmers are universal ISP tools that can program up to eight devices simultaneously, at the maximum theoretical speed for any given device, and are especially designed for the production environment. The compact size and versatile interfaces of WriteNow! programmers allow them to be conveniently and easily integrated into automatic test equipment (ATE) and programming and testing fixtures.

For those ECU's controlled by a Infineon microprocessor equipped with a debug port such as a JTAG / OCDS port ATI developed the A7 Serial Interface Module. The A7 connects to the microprocessor's debug port providing a direct interface to the ECU for calibration. No additional hardware is required. Most importantly, modify ECU memory without impacting the functionality of the ECU.

This technology keeps production processes running at maximum velocity for devices and files of any size. It offers significant performance gains by increasing download and read/write speeds by a factor of ten and supports the latest high density flash memory devices. It's compatible with all existing FlashCORE algorithms and adapters and has the largest library of NAND support and Bad Block Schemes. FlashCORE III is available for manual programmer FlashPAK III, just-in time programming feeder RoadRunner and automated offline programming and handling system PS series PS388 and PS588.

For more than 30 years, ertec has been one of the market leaders in terms of designing innovative solutions on device programming. In particular, as a system supplier, we provide you with competent solutions all around device programming. This comprises the full spectrum commencing with consulting, the effective hardware equipment, the implementation in your plant, all the way up to our IC Programming services.The three pillars of the company ertec are:

Opteeq S-Series is ultra-fast, industrial grade, in-system programmer. It universally supports different types of programming interfaces and silicon architectures. Thanks to its compact size and the software library, S-Series can be easily integrated into other production equipment, e.g., functional or circuit testing machines, testing fixtures, etc. Additionally, S-Series can be also used as desk-top programmer. To satisfy various output volumes, S-Series offers models with 1, 4, or 8 physical programming channels. Its capability to work stably and protection to target circuit make S-Series an excellent choice for mass production of automotive, industrial, and consumer electronics.

UDE/MemTool offers secure and high speed programming for on-chip and external FLASH devices via JTAG, CAN bus or serial interfaces. It supports special functions like protection and whole FLASH erase. Production FLASH tools and Service FLASHER are available too.

Promik is a unique company, because of our deep expertise with programmable microcontroller architectures, that is implemented in a full range of trussed hardware and software solutions, supported by rigorous attention to quality and a 15-years track record of enabling their customer successes.

Novaflash Hydra is the first universal and industrial programmer based on the E-ISP (Extended In-System Programming) technology. Hydra is designed for production environment and can be used 24/7 in the most demanding manufacturing lines, boosting productivity. Hydra programs 1, 2 or 4 different targets simultaneously and, thanks to its tiny size, can be easily integrated in any production equipment, like ATE or ICT/FCT fixtures. Hydra architecture allows programming devices regardless of the producer's brand through several types of programming interfaces. Its reliability and robustness make Hydra the best choice for mass production in all electronics fields

No-Hooks is ATI's innovative software-centric method of rapid prototyping. No-Hooks software can provide Electronic Control Unit (ECU) algorithm rapid prototyping functionality on the production-intent ECU without the need to access or re-program any ECU code. This can be achieved using only the files you use for day to day calibration activities and no additional hardware. The patent-pending No-Hooks technology offers software rapid prototyping features without the high cost of external bypass hardware, extra Hardware-in-the-Loop boxes or expensive (and time consuming) code changes.The key advantage to using ATI's No-Hooks is the opportunity to conduct development and/or test of your control algorithm development ideas or functionality on existing hardware. Any No-Hooks proven development on your target ECU will be closer to production intent, will require significantly less validation time and result in saved time and money.No-Hooks offers two levels of functionality: (1) Base No-Hooks: change control variables in the ECU's RAM that are normally only viewable or measureable. (2) No-Hooks OnTarget: integrate bypass models with production ECU executables without any modifications to the ECU source code and run the new algorithms on the production-intent ECU.In addition, No-Hooks functions with ATI's VISION software. Take advantage of ATI VISION's simple yet intuitive user interface. As an integrated part of VISION you can also simultaneously use other VISION applications such as calibration and data acquisition all within the same application.

For those ECU's controlled by a Infineon microprocessor equipped with a debug port such as a JTAG / OCDS port ATI developed the A7 Serial Interface Module. The A7 connects to the microprocessor's debug port providing a direct interface to the ECU for calibration. No additional hardware is required. Most importantly, modify ECU memory without impacting the functionality of the ECU.Utilizing the debugger port bypasses the CAN bus leaving the CAN bus available for other functions. Serial interfaces provide a faster interface to the ECU. Achieve typical data rates of 100 data items per 20ms using the A7 module.The compact A7 is perfect for built-in applications without a housing or for in-vehicle applications with a splash-proof enclosure and a temperature rating of -40°C to 110°C.

The DCI-GSI2 (dSPACE Connection Interface – Generic Serial Interface) is a high bandwidth, low latency on-chip debug interface to connect your ECU with Rapid Prototyping Hardware, Hardware-in-the-Loop Simulators or Host PCs. It offers a generic approach to connect to a broad range of ECU Microcontrollers by using a connector adapter concept, making it reusable for different projects. By supporting the DAP interface of Infineons TriCore Microcontrollers and the use of XCP on Ethernet for host connection, fast access to internal RAM variables is guaranteed.

dSPACE ECU Interface Software includes the ECU Interface Manager and an Interface (Blockset) for Simulink: The ECU Interface Manager enables the user to automatically integrate service calls for bypassing, calibration and measurement purposes directly into the binary of an ECU application without the need to access source code, knowledge of software details or the build environment. It features an intuitive graphical representation of the ECU application and a powerful search and filter mechanism to comfortably navigate through complex ECU applications. With its Microcontroller-centric approach that goes beyond support for only single ECUs the dSPACE ECU Interface Manager offers a powerful and cost efficient solution for your projects. The Interface for Simulink is realizied by a blockset used to read values from and write values to signals of an ECU. In order to do so the A2L file of an ECU application with an integrated XCP or dSPACE Calibration and Bypassing Service is loaded to the blockset making all signals from the A2L available in your Simulink model. If no service is available on the ECU, the dSPACE ECU Interface Manager can be used to integrate the dSPACE Calibration and Bypassing Service. dSPACE also offers an XCP Service to integrate in your ECU applications source code.

INCA is the universal product family used for the development and calibration of the control and diagnostic parameters present in ECU functions. In addition to parameter optimization, INCA enables acquisition and recording of ECU signals along with additional related vehicle data. In addition to the core system for measurement and calibration, INCA also includes powerful tools for reading fault memory entries, managing calibration parameter values and ECU software project information, measured data analysis, and for reprogramming the flash memory with new ECU software. INCA is used throughout the development process from the initial calibration of a function model, to the pre-calibration of an ECU at the test bench, to the final optimization in the vehicle. It is deployed at the desk, in the lab, at the test bench, and in the vehicle. Applications range from PC simulations to vehicle instrumentation.

INTECRIO is an ETAS software product that enables prototyping of automotive electronic systems based on MATLAB®/Simulink®, ASCET models, C code modules, and AUTOSAR software components. It supports the function development by offering an integration and experimentation platform. For function validation, INTECRIO provides the possibility for virtual prototyping on Windows® PCs directly at the function developer's desk and thus enables cross-domain collaboration between function developers on one hand and system developers and simulation experts on the other. This way, it offers new opportunities for early phases of vehicle development, such as pre-calibration in the office.

ETAS supports the TriCore ™ target either by use of the ETAS ETK/XETK interfaces, or by use of the standard CAN interface. When using CAN as the calibration interface, ETAS provides an XCP protocol implementation free of charge.

EHOOKS is a software tool to enable bypass hooks to be placed efficiently into ECU software. The hooks can be set to HEX & A2L file without knowing software code details combined with know how protection. The partnerships with Tier 1 suppliers ensure a safe, reliable solution for dedicated ECU platforms. No modification of standard software build is necessary. This results in smaller code closer to the production SW. For distributed development, EHOOKS enables that there are less software deliveries necessary for the OEM, because he/she can set the hooks efficiently by him-/herself. EHOOKS is compatible with all ETAS hardware families and ECU interfaces. The cost optimized, project-related business model allows a cost-efficient implementation.

The VX1000 family is a modular measurement and calibration solution with extremely high performance. It can be used in the vehicle (suitable for engine compartment), on test benches, and in the laboratory. The system acts as an interface between the ECU and a measurement and calibration tool such as CANape using the ASAM standard: XCPonEtherent. For maximum data throughput with minimal effect on ECU execution time, data is accessed utilizing microcontroller-specific data trace or debug interfaces.

The EB tresos family is based on standards like AUTOSAR, FlexRay, CAN, and LIN. EB tresos Studio is a versatile tool for configuration of all the AUTOSAR Basic Software modules. EB tresos AutoCore comprises all these basic software modules according to the AUTOSAR standards.

Hitex has teamed up with the embedded security specialists at ESCRYPT: to equip the latest Infineon AURIX™ multicore microcontrollers, designed for use in production environments, with the CycurHSM software stack.

RTA-BSW (Basic Software) is the next-generation software platform for AUTOSAR basic software - easy to configure, integrate, and test. RTA-BSW is developed in accordance with ISO 26262 development processes conformant to ASIL-D and can be used in even the most demanding of safety-critical applications. RTA-BSW supports AUTOSAR 4.x and consists of several stacks that provide support for a wide range of features such as operating system, run-time environment, communication over CAN and LIN, memory, and diagnostic and calibration protocols such as XCP.

The SCANFLEX hardware was the first fully modular JTAG/Boundary Scan platform on the market and is still the most modern system architecture available to date. It consists essentially of three components: controllers, TAP transceivers and I/O modules. Hardware platform SCANFLEX is not only the best choice for testing but also for programming of internal and external devices.

Owing to its open scalability, SYSTEM CASCON offers special flexibility. As a rule, seven parameters are defined. This principle enables the use of software throughout the entire product life cycle as well as user-friendly update or upgrade options. Tool Suites are available for Device Programming, Boundary Scan Test, Debugger/Visualizer, Processor Emulation Test, Integrated Instruments and Functional I/O Test.

MICROSAR products give you a complete context for implementing software architecture based on AUTOSAR-Standard. Vector provides with MICROSAR all necessary Basis Software Modules of the Service and ECU Abstraction Layers. TriCore ™ specific Drivers of the Microcontroller Abstraction Layer are completely integrated in the MICROSAR Basis Software. This permits to use for all basis software the optimised Vector toolchain for AUTOSAR.

Aggregator for Coverage data, resolves to a single number, Code Complexity analysis, able to import from multiple sources (sources can be non-VectorCAST, e.g. Tessy® or RTRT®) – This product supports understanding of Project Status and is 'Recommended' for certification in SIL-2-4 and ASILB-D for Coverage and Complexity

VectorCAST/RSP is the module that has the “knowledge” on how to download the VectorCAST test harness to the target, how to initialize it, and how to pass it test cases for execution. It also knows how to capture pass/fail results and code coverage metrics. It works behind the scenes to make testing on target completely automated and transparent.

AUTOSAR is a standardized automotive software architecture to establish the reuse of software within the automotive area. This is the baseline for enabling a transition from an ECU specific software development to an application oriented approach.

Infineon provides MC-ISAR low-level drivers based on the AUTOSAR MCAL layer. With the MC-ISAR AUTOSAR drivers a system supplier can use one set of standardized basic software drivers over different applications within one configuration tool. By developing MC-ISAR in house at Infineon this enables efficient and optimized drivers. A CMM level 3 certified process is applied for the MC-ISAR drivers.

The complete AUTOSAR suite is provided in close cooperation with software partners which allow to reuse their long term software experience. Thus an optimized AUTOSAR software bundle is available.

Access to the microcontroller hardware is routed through the Microcontroller Abstraction Layer. The MCAL layer ensures a standard interface and controls the microcontroller peripherals. Standardized components are

In addition to standardized modules AUTOSAR provides the possibility of complex driver for non-standardized hardware module. To efficiently exploit the hardware MCAL Complex Drivers are an essential component for hardware abstraction.

AUTOSAR is a standardized automotive software architecture to establish the reuse of software within the automotive area. This is the baseline for enabling a transition from an ECU specific software development to an application oriented approach.

Infineon provides MC-ISAR low-level drivers based on the AUTOSAR MCAL layer. With the MC-ISAR AUTOSAR drivers a system supplier can use one set of standardized basic software drivers over different applications within one configuration tool. By developing MC-ISAR in house at Infineon this enables efficient and optimized drivers. A CMM level 3 certified process is applied for the MC-ISAR drivers.

The complete AUTOSAR suite is provided in close cooperation with software partners which allow to reuse their long term software experience. Thus an optimized AUTOSAR software bundle is available.

Access to the microcontroller hardware is routed through the Microcontroller Abstraction Layer. The MCAL layer ensures a standard interface and controls the microcontroller peripherals. Standardized components are

In addition to standardized modules AUTOSAR provides the possibility of complex driver for non-standardized hardware module. To efficiently exploit the hardware MCAL Complex Drivers are an essential component for hardware abstraction.